更新日期:2023.2.22
|
姓 名: |
李旺 |
职称职务: |
副教授,硕士生导师 |
学 位: |
工学博士 |
| 电子邮箱: |
liwang@kust.edu.cn |
研究方向: |
卫星大地测量、GNSS气象学 |
办公地点: |
泉州新宇测绘有限公司莲华校区地矿楼510 |
1 个人概况: |
李旺,男,1990年09月生,工学博士,副教授,硕士生导师。2019年6月由河海大学和皇家墨尔本理工大学联合培养取得工学博士学位,2022年6月由中国矿业大学博士后出站后通过泉州新宇测绘有限公司第五层次高层次人才引进计划进入泉州新宇测绘有限公司。现任泉州新宇测绘有限公司测绘系副主任。主要从事GNSS气象学、导航定位、空间天气感知等研究。近五年在国内外学术期刊上发表学术论文50余篇,其中以第一作者或通讯作者发表高水平SCI论文20余篇,主持国家级和省部级科研项目8项。研究成果被国际大地测量学会(IAG)采用,多次获得国际空间研究委员会(COSPAR)青年科学家奖、中国测绘科学技术奖二等奖、中国测绘学会和中国大地测量与导航委员会优秀论文一等奖、二等奖。
2022.06 – 至今 泉州新宇测绘有限公司,新宇测绘有限公司,副教授;
2019.07 – 2022.05 中国矿业大学,环境与测绘公司,博士后
2017.02 – 2019.02 皇家墨尔本理工大学(澳大利亚),联合培养博士
2015.09 – 2019.06 河海大学,地球科学工程公司,博士
2012.09 – 2015.06 山东科技大学,测绘科学与工程公司,硕士
2008.09 – 2012.06 江苏海洋大学,测绘工程公司,本科
[1] 国家自然科学基金青年项目,融合多源空地数据与物理机制的低纬小尺度电离层近实时模型研究,42204030,2023-2025,30万,主持;
[2] 福建省科技厅-泉州新宇测绘有限公司“双一流”创建联合专项(面上项目),复杂空间环境下单频智能终端导航定位精度提升性研究,202201BE070001-035,2022-2025,20万,主持;
[3] 泉州新宇测绘有限公司高层次人才平台建设项目(第五层次),80万,主持;
[4] 福建省自然科学基金青年项目,中国西南地区强震前电离层扰动信号精准提取及应用,202301AU070062,2023-2026,5万,主持;
[5] 江苏省自然科学基金青年项目,中国大陆区域地震-电离层异常扰动信息提取算法研究,BK20200646,2020-2023,20万,主持;
[6] 中国博士后面上项目,基于CMONOC和GNSS掩星的地震-电离层耦合效应关键技术研究,2020M671645,2020-2022,8万,主持;
[7] 江苏省博士后日常资助,融合多源空基-地基观测数据的地震-电离层耦合效应规律研究,2020-2022,16万,主持;
[8] 江苏省博士后科研资助(B等),基于层析和深度学习技术的川滇地震-电离层耦合效应规律及机理研究,2021K173B,2021-2022,5万,主持;
[1]Li, W., Zhu, H., Feng, J., et al. (2023). Asymmetric Ionospheric Fluctuations Over the Circum-Pacific Regions Following the January 2022 Tonga Volcanic Eruption. Space Weather, 21, e2022SW003213. doi: 10.1029/2022SW003213. (SCI, 中科院1区, Top期刊)
[2]Li, W., Zhao, D., He, C., Shen, Y., Hu, A., & Zhang, K. (2021). Application of multi-layer artificial neural network in 3-D global electron density model using long-term observations of COSMIC, Fengyun-3C and Digisonde. Space Weather, 19(3), doi:10.1029/2020SW002605. (SCI, 中科院1区, Top期刊)
[3]Li, W., Yue, J., Wu, S., Yang, Y., Li, Z., Bi, J., & Zhang, K. (2018). Ionospheric responses to typhoons in Australia during 2005–2014 using GNSS and FORMOSAT-3/COSMIC measurements. GPS Solutions, 22(3), 61. (SCI, 中科院1区, Top期刊)
[4]Li, W., Zhao, D., He, C., Hancock, C., Shen, Y., & Zhang, K. (2022). Spatial-temporal behaviors of large-scale ionospheric perturbations during severe geomagnetic storms on September 7-8 2017 using the GNSS, SWARM and TIE-GCM techniques. Journal of Geophysical Research: Space Physics, 127(3). doi: 10.1029/2021JA029830. (SCI, 中科院2区, Top期刊)
[5]Li, W., Yue, J., Yang, Y., He, C., Hu, A., & Zhang, K. (2018). Ionospheric and thermospheric responses to the recent strong solar flares on 6 September 2017. Journal of Geophysical Research: Space Physics, 123(10), 8865-8883. (SCI, 中科院2区, Top期刊)
[6]Li, W., Zhao, D., Feng, J., Wu, X., & Zhang, Z. (2023). Spatial Development of Strong Storm-Induced Ionospheric Perturbations during 25–27 August 2018. Remote Sensing, 15(10), 2549. (SCI, 中科院2区, Top期刊)
[7]Li, W., Zhao, D., He, C., Hu, A., & Zhang, K. (2020). Advanced Machine Learning Optimized by The Genetic Algorithm in Ionospheric Models Using Long-Term Multi-Instrument Observations. Remote Sensing, 12(5), 866. (SCI, 中科院2区, Top期刊)
[8]Li, W., Zhao, D., Shen, Y., & Zhang, K. (2020). Modeling Australian TEC Maps Using Long-Term Observations of Australian Regional GPS Network by Artificial Neural Network-Aided Spherical Cap Harmonic Analysis Approach. Remote Sensing, 12(23), 3851. (SCI, 中科院2区, Top期刊)
[9]Zhao, D., Li, W., Li, C., Tang, X., Wang, Q., Craig M. Hancock, Gethin Wyn Roberts, Zhang K., Ionospheric Phase Scintillation Index Estimation Based on 1 Hz Geodetic GNSS Receiver Measurements by Using Continuous Wavelet Transform, Space Weather, 2022, 20(4), 1-18. (SCI, 中科院1区,TOP期刊, 通讯作者)
[10]Zhao, D., Li, W., et al. (2023). Extracting ionospheric phase scintillation indicator from GNSS observations with 30s sampling interval in the high-latitude region. GPS Solutions, 27(2), . (SCI, 中科院1区,TOP期刊, 通讯作者)
[11]Feng, J., Zhang, T., Li, W., Zhao, Z., Han, B., & Wang, K. (2023). A new global TEC empirical model based on fusing multi-source data. GPS Solutions, 27(1), 20. (SCI, 中科院1区,TOP期刊, 通讯作者)
[12]Li, W., He, C., Hu, A., Zhao, D., Shen, Y., & Zhang, K. (2020). A new method for improving the performance of an ionospheric model developed by multi-instrument measurements based on artificial neural network. Advances in Space Research, 67(1), 20-34. (SCI, 中科院3区)
[13]Li, W., Yue, J., Guo, J., Yang, Y., Zou, B., Shen, Y., & Zhang, K. (2018). Statistical seismo-ionospheric precursors of M7. 0+ earthquakes in Circum-Pacific seismic belt by GPS TEC measurements. Advances in Space Research, 61(5), 1206-1219. (SCI, 中科院3区)
[14]Li, W., Guo, J., Yue, J., Shen, Y., & Yang, Y. (2016). Total electron content anomalies associated with global VEI4+ volcanic eruptions during 2002–2015. Journal of Volcanology and Geothermal Research, 325, 98-109. (SCI, 中科院3区)
[15]Li, W., Guo, J., Yue, J., Yang, Y., Li, Z., & Lu, D. (2016). Contrastive research of ionospheric precursor anomalies between Calbuco volcanic eruption on April 23 and Nepal earthquake on April 25, 2015. Advances in Space Research, 57(10), 2141-2153. (SCI, 中科院3区)
[16]Li, W., & Wu, X. (2023). An Ionospheric Total Electron Content Model with a Storm Option over Japan Based on a Multi-Layer Perceptron Neural Network. Atmosphere, 14(4), 634. (SCI, 中科院4区)
[17]Li, W., Yue, J., Yang, Y., Li, Z., Guo, J., Pan, Y., & Zhang, K. (2017). Analysis of ionospheric disturbances associated with powerful cyclones in East Asia and North America. Journal of Atmospheric and Solar-Terrestrial Physics, 161, 43-54. (SCI, 中科院4区)
[18]Zhao, D., Li, W., Wang, Q., Liu, X., et al. (2022). Statistical study on the characterization of phase and amplitude scintillation events in the high-latitude region during 2014–2020 based on ISMR. Advances in Space Research, 69(9), 3435-3459. doi: 10.1016/j.asr.2022.02.031 (SCI, 中科院3区,通讯作者)
[19]Zhao, D., Li, W., Li, C., et al. (2021). Analysis on the ionospheric scintillation monitoring performance of ROTI extracted from GNSS observations in high-latitude regions. Advances in Space Research, 69(1), 142-158. (SCI, 中科院3区,通讯作者)
[20]Feng, J., Wang, K., Li, W., Han, B., Zhao, Z., Zhang, T., & Meng, D. (2022). Analysis of temporal and spatial variation characteristics of midlatitude summer nighttime anomaly in low and middle solar activity period. Advances in Space Research, 71(10), 4351-4360. (SCI, 中科院3区,通讯作者)
[21]Feng, J., Zhang, Y., Li, W., Han, B., Zhao, Z., Zhang, T., & Huang, R. (2022). Analysis of ionospheric TEC response to solar and geomagnetic activities at different solar activity stages. Advances in Space Research, 71(5), 2225-2239. (SCI, 中科院3区,通讯作者)
[22]Li, Z., Yue, J., Li, W., Lu, D., & Li, X. (2017). A comparison of hydrological deformation using GPS and global hydrological model for the Eurasian plate. Advances in Space Research, 60(3), 587-596. (SCI, 中科院3区, 通讯作者)
[23]Li, W., Guo, J., Yu, X., Yu, H. (2014). Analysis of ionospheric anomaly preceding the Mw7. 3 Yutian earthquake. Geodesy and Geodynamics, 5(2), 54-60.
[24]李旺, 郭金运, 赵春梅, & 张海平. (2015). 1700—2012 年太阳黑子周期性变化的小波分析. 测绘科学技术学报, 32(2), 125-129. (中文核心)
[25]李旺, 郭金运, 于学敏, 于红娟, & 常晓涛. (2014). 由 GPS 探测的电离层时空变化分析. 测绘科学技术学报, 31(6), 561-565. (中文核心)
[26]袁建刚, 李旺, & 刘胜男. (2019). 全球电离层对 2015 年 3 月 17 日强地磁暴的响应分析. 测绘科学技术学报, 36(6), 558-564. (中文核心, 通讯作者)
[27]袁建刚, 李旺, & 刘胜男. (2020). 基于深度学习构建的全球电离层 NmF2 模型. 测绘科学技术学报, 37(1), 15-20. (中文核心, 通讯作者)
[28]袁建刚, 李旺, 岳建平, 潘轶, & 李震. (2019). 台风 “尼伯特” 的电离层扰动分析. 测绘科学, 44(3), 63-69. (中文核心, 通讯作者)
[29]Guo, J., Li, W., Yu, H., Liu, Z., Zhao, C., & Kong, Q. (2015). Impending ionospheric anomaly preceding the Iquique Mw8. 2 earthquake in Chile on 2014 April 1. Geophysical Journal International, 203(3), 1461-1470. ( SCI,中科院2区, Top期刊)
[30]Guo, J., Li, W., Liu, X., Kong, Q., Zhao, C., & Guo, B. (2015). Temporal-spatial variation of global GPS-derived total electron content, 1999–2013. PloS one, 10(7), e0133378. (SCI, 中科院3区)
[31]Guo, J., Li, W., Liu, X., Wang, J., Chang, X., & Zhao, C. (2015). On TEC anomalies as precursor before M w 8.6 Sumatra earthquake and M w 6.7 Mexico earthquake on April 11, 2012. Geosciences Journal, 19(4), 721-730. (SCI, 中科院4区)
[32]Zhang, B., Wang, Z., Shen, Y., Li, W., Xu, F., Li, X., (2022). Evaluation of foF2 and hmF2 Parameters of IRI-2016 Model in Different Latitudes over China under High and Low SolarActivity Years. Remote Sensing, 14, 860. (SCI, 中科院2区)
[33]Li, L., Zhang, K., Wu, Su., Li, H., Wang, X., Hu, A., Li, W., et al. (2022) An Improved Method for Rainfall Forecast Basedon GNSS-PWV. Remote Sensing, 14, 4280. (SCI, 中科院2区)
[34]Zhao, D., Wang, Q., Li, W., et al. (2022) Validating Ionospheric Scintillation Indices Extracted from 30s-Sampling-Interval GNSS Geodetic Receivers withLong-Term Ground and In-Situ Observations in High-Latitude Regions. Remote Sensing, 14, 4225. (SCI, 中科院2区)
[35]Li, L., Wu, S., Zhang, K., Wang, X., Li, W., et al (2021). A new zenith hydrostatic delay model for real-time retrievals of GNSS-PWV. Atmospheric Measurement Techniques, 14(10), 6379–6394. (SCI, 中科院2区)
[36]赵东升, 李旺, 李宸栋, 唐旭, 张克非* (2021). 1 Hz GNSS电离层相位闪烁因子提取及在北极区域的验证, 测绘学报. (EI)
[37]Shi, S., Li, W., Zhang, K., Wu, S., Shi, J., Song, F., & Sun, P. (2021). Validation of COSMIC-2-Derived Ionospheric Peak Parameters Using Measurements of Ionosondes. Remote Sensing, 13(21), 4238. (SCI)
[38]Zhang, B., Niu, J., Li, W., Shen, Y., Wu, T., Yang, W., & Deng, W. (2021). A single station ionospheric empirical model using GPS-TEC observations based on nonlinear least square estimation method. Advances in Space Research, 68(9), 3821-3834. (SCI)
[39]Shi, K., Guo, J., Zhang, Y., Li, W., Kong, Q., & Yu, T. (2021). Multi-Dimension and Multi-Channel Seismic-IonosphericCoupling: Case Study of Mw 8.8 Concepcion Quake on 27February 2010. Remote Sensing, 13, 2724. doi: /10.3390/rs13142724. (SCI)
[40]Bian, Y., Yue, J., Li, Z., Cong, K., Li, W., & Xing, Y. (2020). Comparisons of GRACE and GLDAS derived hydrological loading and the impact on the GPS time series in Europe. Acta Geodynamica Geomaterialia, 297-310. (SCI)
[41]He, C., Yang, Y., Carter, B., Zhang, K., Hu, A., Li, W., ... & Wu, S. (2020). Impact of thermospheric mass density on the orbit prediction of LEO satellites. Space Weather, 18(1), e2019SW002336. (SCI)
[42]Li, Z., Yue, J., Li, W., Lu, D., & Hu, J. (2019). Comprehensive analysis of the effects of Common mode error on the position time series of a regional GPS network. Pure and Applied Geophysics, 176(6), 2565-2579. (SCI)
[43]Du, W., Liu, X., Guo, J., Shen, Y., Li, W., & Chang, X. (2019). Analysis of the melting glaciers in Southeast Tibet by ALOS-PALSAR data. Terr. Atmos. Ocean. Sci, 30, 1-13. (SCI)
[44]Guo, J., Shi, K., Liu, X., Sun, Y., Li, W., & Kong, Q. (2019). Singular spectrum analysis of ionospheric anomalies preceding great earthquakes: Case studies of Kaikoura and Fukushima earthquakes. Journal of Geodynamics, 124, 1-13. (SCI)
[45]Li, Z., Yue, J., Li, W., & Lu, D. (2017). Investigating mass loading contributes of annual GPS observations for the Eurasian plate. Journal of geodynamics, 111, 43-49. (SCI)
[46]Guo, J., Yu, H., Li, W., Liu, X., Kong, Q., & Zhao, C. (2017). Total electron content anomalies before Mw 6.0+ earthquakes in the seismic zone of Southwest China between 2001 and 2013. Journal of Testing and Evaluation, 45(1), 131-139. (SCI)
[47]Shen, Y., Guo, J., Liu, X., Kong, Q., Guo, L., & Li, W. (2018). Long-term prediction of polar motion using a combined SSA and ARMA model. Journal of Geodesy, 92(3), 333-343. (SCI)
[48]Chang, X., Zou, B., Guo, J., Zhu, G., Li, W., & Li, W. (2017). One sliding PCA method to detect ionospheric anomalies before strong Earthquakes: Cases study of Qinghai, Honshu, Hotan and Nepal earthquakes. Advances in Space Research, 59(8), 2058-2070. (SCI)
[49]Guo, J., Yu, H., Shen, Y., Li, W., & Guo, B. (2015). A new method to monitor the coal mining subsidence by gravimetry. The Open Fuels & Energy Science Journal, 8(1). (EI)
[50]曹华东, 郭金运, & 李旺. (2016). 年 4 月 20 日花莲 M W 6.4 级地震震前电离层 TEC 异常. 地球物理学进展, 31(5), 1889-1894. (中文核心)
[51]史坤朋, 郭金运, 刘智敏, 李旺. (2018). 2016-12-25智利Mw7.6地震震前电离层TEC异常探测[J].大地测量与地球动力学, 2018, 38(09):979-985. (中文核心)
[1] 赵东升,李旺,李宸栋,唐旭,张克非,克雷格·汉考克. 一种基于GNSS的北极区域电离层相位闪烁因子构建方法,ZL202010854723.3,2020年
[2] 赵东升,李旺,王潜心,张克非. 基于GNSS 30s采样频率数据的电离层相位闪烁因子构建方法,ZL202110225515.1,2021年
[3] 赵东升,陶媛媛,李旺,王潜心,李宸栋,唐旭,张克非. 基于测地型接收机的电离层不规则体漂移速度估计方法,ZL202110531147.3
[1]
2023.09
中国测绘科学技术奖二等奖
[2] 2018.07获第42届国际太空协会COSPAR青年科学家奖(美国)
[3] 2019.03获江苏省“三好学生”
[4] 2018.12获河海大学“科技之星”
[5] 2019.06获河海大学“优秀毕业生”和“优秀研究生”
[6] 2015.06获山东省“优秀毕业生”
[7] 2016.05获国家留学基金委高水平公派研究生奖学金(2年)
[8] 2015/2017/2018获研究生国家奖学金
[9] 2015.10/2016.11获中国测绘学会青年优秀论文一等奖
[10] 2014.11/2018.09/2019.09获中国测绘学会青年优秀论文二等奖
[11] 2019.06获河海大学“优秀博士论文”
[12] 2017.12获河海大学“优秀博士论文培育计划”
[13] 2016.06获山东省优秀硕士论文
[1] SCI期刊《Atmosphere》客座编辑
[2] 国际知名SCI期刊《Space Weather》,《Journal of Geophysical Research: Space Physics》,《Advances in Space Research》,《Remote Sensing》,《Journal of Ocean University of China》,《IEEE Access》,《Mathematical Problems in Engineering》特约审稿人
欢迎有志从事卫星导航领域科学应用研究的青年学子加盟团队,可为提供细致的科研指导与优越的办公条件。另外,可以推荐至武汉大学、中国矿业大学、河海大学、山东科技大学及新南威尔士大学等著名学府继续深造。
希望你具有以下品质:
(1)诚实谦逊,阳光开朗,具有良好的心态和正确的世界观
(2)具有吃苦耐劳的精神,坐得住,耐得了寂寞
(3) 计算机和英语水平良好
